Libration-induced Orbit Period Variations Following the DART Impact

TL;DR

This paper analyzes how the DART impact on a binary asteroid affects the orbit period of the secondary, revealing libration-induced fluctuations that depend on impact conditions and system properties.

Contribution

It introduces a model for orbit period variations caused by libration in binary asteroids following a kinetic impact, highlighting their significance for planetary defense.

Findings

Orbit period varies with libration state post-impact.

Two main oscillation modes with significant amplitude.

Fluctuations can inform about the system's libration and impact effects.

Abstract

The Double Asteroid Redirection Test (DART) mission will be the first test of a kinetic impactor as a means of planetary defense. In late 2022, DART will collide with Dimorphos, the secondary in the Didymos binary asteroid system. The impact will cause a momentum transfer from the spacecraft to the binary asteroid, changing the orbit period of Dimorphos and forcing it to librate in its orbit. Owing to the coupled dynamics in binary asteroid systems, the orbit and libration state of Dimorphos are intertwined. Thus, as the secondary librates, it also experiences fluctuations in its orbit period. These variations in the orbit period are dependent on the magnitude of the impact perturbation, as well as the system's state at impact and the moments of inertia of the secondary. In general, any binary asteroid system whose secondary is librating will have a non-constant orbit period on account of the secondary's fluctuating spin rate. The orbit period variations are typically driven by two modes: a long-period and short-period, each with significant amplitudes on the order of tens of seconds to several minutes. The fluctuating orbit period offers both a challenge and an opportunity in the context of the DART mission. Orbit period oscillations will make determining the post-impact orbit period more difficult, but can also provide information about the system's libration state and the DART impact.